Remote detection and recording of atomic-scale spin dynamics

Abstract: Atomic spin structures assembled by means of scanning tunneling microscopy (STM) provide valuable insight into the understanding of atomic-scale magnetism. Among the major challenges are the detection and subsequent read-out of ultrafast spin dynamics due to a dichotomy in travel speed of these dynamics and the probe tip. Here, we present a device composed of individual Fe atoms that allows for remote detection of spin dynamics. We have characterized the device and used it to detect the presence of spin waves … Show more

“…Individual magnetic atoms can be spatially arranged and studied by means of spin-polarized tunneling (2, 3) and electron tunneling spectroscopy (4,5), allowing physicists to probe their local magnetization state and energy configuration, respectively. However, because of their slow time scales, these techniques have been able to observe the dynamic spin processes only indirectly (6)(7)(8).…”

Free coherent evolution of a coupled atomic spin system initialized by electron scattering

“…Individual magnetic atoms can be spatially arranged and studied by means of spin-polarized tunneling (2, 3) and electron tunneling spectroscopy (4,5), allowing physicists to probe their local magnetization state and energy configuration, respectively. However, because of their slow time scales, these techniques have been able to observe the dynamic spin processes only indirectly (6)(7)(8).…”

Free coherent evolution of a coupled atomic spin system initialized by electron scattering